Origins and consequences of DNA damage in male germ cells.
暂无分享,去创建一个
[1] W. Vach,et al. Parent's Age and the Risk of Oral Clefts , 2005, Epidemiology.
[2] G. Balercia,et al. An update of Coenzyme Q10 implications in male infertility: Biochemical and therapeutic aspects , 2005, BioFactors.
[3] D. Lamb,et al. THE GENETICS OF MALE INFERTILITY: A FIELD OF STUDY WHOSE TIME IS NOW , 2006, Archives of andrology.
[4] Ming-Tsang Wu,et al. Sperm DNA damage correlates with polycyclic aromatic hydrocarbons biomarker in coke-oven workers , 2006, International archives of occupational and environmental health.
[5] Thomas T. F. Huang,et al. An endogenous nuclease in hamster, mouse, and human spermatozoa cleaves DNA into loop-sized fragments. , 2005, Journal of andrology.
[6] J. Crow. The high spontaneous mutation rate: is it a health risk? , 1997, Proceedings of the National Academy of Sciences of the United States of America.
[7] A. Giwercman,et al. The predictive value of sperm chromatin structure assay (SCSA) parameters for the outcome of intrauterine insemination, IVF and ICSI. , 2004, Human reproduction.
[8] L. Cuisset,et al. Establishment of the paternal methylation imprint of the human H19 and MEST/PEG1 genes during spermatogenesis. , 2000, Human molecular genetics.
[9] R. Aitken. Founders' Lecture. Human spermatozoa: fruits of creation, seeds of doubt. , 2004, Reproduction, fertility, and development.
[10] R. Aitken,et al. A comparative study of oxidative DNA damage in mammalian spermatozoa , 2005, Molecular reproduction and development.
[11] Mark Weiser,et al. Advancing paternal age and autism. , 2006, Archives of general psychiatry.
[12] The genetics of male infertility. , 1996, The Journal of urology.
[13] L. Migliore,et al. Assessment of sperm DNA integrity in workers exposed to styrene. , 2002, Human reproduction.
[14] R. Aitken,et al. Development of an image analysis system to monitor the retention of residual cytoplasm by human spermatozoa: correlation with biochemical markers of the cytoplasmic space, oxidative stress, and sperm function. , 1996, Journal of andrology.
[15] D. Evenson,et al. Environmental toxicants cause sperm DNA fragmentation as detected by the Sperm Chromatin Structure Assay (SCSA). , 2005, Toxicology and applied pharmacology.
[16] A. Campana,et al. Sperm nuclear DNA damage and altered chromatin structure: effect on fertilization and embryo development. , 1998, Human reproduction.
[17] O. Niwa,et al. The Novel Surveillance Mechanism of the Trp53-Dependent S-Phase Checkpoint Ensures Chromosome Damage Repair and Preimplantation-Stage Development of Mouse Embryos Fertilized with X-Irradiated Sperm , 2002, Radiation research.
[18] Michael K. Skinner,et al. Epigenetic Transgenerational Actions of Endocrine Disruptors and Male Fertility , 2005, Science.
[19] J. Check,et al. ABSENCE OF SPERM WITH RAPID MOTILITY IS NOT DETRIMENTAL TO IVF OUTCOME MEASURES WHEN ICSI IS USED , 2005, Archives of andrology.
[20] Narendra Singh,et al. Effects of age on DNA double-strand breaks and apoptosis in human sperm. , 2003, Fertility and sterility.
[21] Hyung-Sik Kang,et al. Evaluation of immuno- and reproductive toxicities and association between immunotoxicological and genotoxicological parameters in waste incineration workers. , 2005, Toxicology.
[22] J. Guérin,et al. Sperm DNA fragmentation decreases the pregnancy rate in an assisted reproductive technique. , 2003, Human reproduction.
[23] R. Aitken,et al. Andrology: Analysis of sperm movement in relation to the oxidative stress created by leukocytes in washed sperm preparations and seminal plasma , 1995 .
[24] A. Agarwal,et al. Negative effects of increased sperm DNA damage in relation to seminal oxidative stress in men with idiopathic and male factor infertility. , 2003, Fertility and sterility.
[25] Moulavi Fariba,et al. Effect of sperm DNA damage and sperm protamine deficiency on fertilization and embryo development post-ICSI. , 2005 .
[26] R. Aitken. The Amoroso Lecture. The human spermatozoon--a cell in crisis? , 1999, Journal of reproduction and fertility.
[27] K. Jarvi,et al. Catalase-like and superoxide dismutase-like activities in human seminal plasma , 2002, Urological Research.
[28] P. Andersen,et al. Advanced paternal age and risk of fetal death: a cohort study. , 2004, American journal of epidemiology.
[29] D. Sakkas,et al. Effect of deoxyribonucleic acid protamination on fluorochrome staining and in situ nick-translation of murine and human mature spermatozoa. , 1993, Biology of reproduction.
[30] R. Balhorn,et al. Characteristics of human sperm chromatin structure following an episode of influenza and high fever: a case study. , 2000, Journal of andrology.
[31] A. Zini,et al. Sperm DNA damage: importance in the era of assisted reproduction , 2006, Current opinion in urology.
[32] R. Aitken. 002. Human spermatozoa: fruits of creation, seed of doubt , 2004 .
[33] Rivka L. Glaser,et al. Advancing age has differential effects on DNA damage, chromatin integrity, gene mutations, and aneuploidies in sperm. , 2006, Proceedings of the National Academy of Sciences of the United States of America.
[34] Zhi-Min Yuan,et al. p53-Dependent S-Phase Damage Checkpoint and Pronuclear Cross Talk in Mouse Zygotes with X-Irradiated Sperm , 2002, Molecular and Cellular Biology.
[35] Diana Anderson,et al. The effects of male age on sperm DNA damage in healthy non-smokers. , 2007, Human reproduction.
[36] Diana Anderson. Overview of male-mediated developmental toxicity. , 2003, Advances in experimental medicine and biology.
[37] S. Loft,et al. Oxidative DNA damage in human sperm influences time to pregnancy. , 2003, Human reproduction.
[38] S. Oehninger,et al. Sperm DNA quality predicts intrauterine insemination outcome: a prospective cohort study. , 2002, Human reproduction.
[39] M. Virro,et al. Sperm chromatin structure assay (SCSA) parameters are related to fertilization, blastocyst development, and ongoing pregnancy in in vitro fertilization and intracytoplasmic sperm injection cycles. , 2004, Fertility and sterility.
[40] A. Bast,et al. Tyrosine as important contributor to the antioxidant capacity of seminal plasma. , 2000, Chemico-biological interactions.
[41] K. Latham,et al. Developmental Regulation and In Vitro Culture Effects on Expression of DNA Repair and Cell Cycle Checkpoint Control Genes in Rhesus Monkey Oocytes and Embryos1 , 2005, Biology of reproduction.
[42] A. Pál,et al. IS THERE A RELATIONSHIP BETWEEN CELL PHONE USE AND SEMEN QUALITY? , 2005, Archives of andrology.
[43] Diana Anderson,et al. Oestrogenic compounds and oxidative stress (in human sperm and lymphocytes in the Comet assay). , 2003, Mutation research.
[44] Yankai Xia,et al. Genotoxic effects on spermatozoa of carbaryl-exposed workers. , 2005, Toxicological sciences : an official journal of the Society of Toxicology.
[45] R. Aitken,et al. Oxidative stress, DNA damage and the Y chromosome. , 2001, Reproduction.
[46] A Berkovitz,et al. How to improve IVF-ICSI outcome by sperm selection. , 2006, Reproductive biomedicine online.
[47] J. Ērenpreisa,et al. Effect of leukocytospermia on sperm DNA integrity: a negative effect in abnormal semen samples. , 2002, Journal of andrology.
[48] B. Hales,et al. Impact of paternal exposure to chemotherapy on offspring in the rat. , 2005, Journal of the National Cancer Institute. Monographs.
[49] B. Ames,et al. Smoking and low antioxidant levels increase oxidative damage to sperm DNA. , 1996, Mutation research.
[50] R. Aitken,et al. Seeds of concern , 2004, Nature.
[51] F. Kiesewetter,et al. Individual assessment of sperm morphology of single spermatozoa used for intracytoplasmic sperm injection , 2005, Andrologia.
[52] K. Krause,et al. A Ca2+-activated NADPH Oxidase in Testis, Spleen, and Lymph Nodes* , 2001, The Journal of Biological Chemistry.
[53] E. Nieschlag,et al. Reproductive functions of the ageing male. , 2004, Human reproduction update.
[54] Andrew P Feinberg,et al. Association of in vitro fertilization with Beckwith-Wiedemann syndrome and epigenetic alterations of LIT1 and H19. , 2003, American journal of human genetics.
[55] A. Gavin,et al. Association of early life factors and acute lymphoblastic leukaemia in childhood: historical cohort study , 2002, British Journal of Cancer.
[56] D. Brison,et al. The spectrum of DNA damage in human sperm assessed by single cell gel electrophoresis (Comet assay) and its relationship to fertilization and embryo development. , 2002, Human reproduction.
[57] R. Aitken,et al. Cellular basis of defective sperm function and its association with the genesis of reactive oxygen species by human spermatozoa. , 1987, Journal of reproduction and fertility.
[58] F. Rasmussen,et al. Paternal age and schizophrenia: a population based cohort study , 2004, BMJ : British Medical Journal.
[59] W. Reik,et al. Imprinted Genes, Placental Development and Fetal Growth , 2006, Hormone Research in Paediatrics.
[60] L. Hurst,et al. Human genetics: Mystery of the mutagenic male , 2002, Nature.
[61] B. Kovačič,et al. Clinical use of pentoxifylline for activation of immotile testicular sperm before ICSI in patients with azoospermia. , 2006, Journal of andrology.
[62] R. Slama,et al. Influence of paternal age on the risk of spontaneous abortion. , 2005, American journal of epidemiology.
[63] R. Henkel,et al. Effect of reactive oxygen species produced by spermatozoa and leukocytes on sperm functions in non-leukocytospermic patients. , 2005, Fertility and sterility.
[64] J. Tesarik,et al. Sperm nuclear DNA damage: update on the mechanism, diagnosis and treatment. , 2006, Reproductive biomedicine online.
[65] L. Hagmar,et al. Exposure to PCB and p, p'-DDE in European and Inuit populations: impact on human sperm chromatin integrity. , 2005, Human reproduction.
[66] M. Sousa,et al. Genomic imprinting in disruptive spermatogenesis , 2004, The Lancet.
[67] C. Tease,et al. The influence of maternal age on radiation-induced chromosome aberrations in mouse oocytes. , 1991, Mutation research.
[68] Subhasis Banerjee,et al. Chromatin modification of imprinted H19 gene in mammalian spermatozoa , 1998, Molecular reproduction and development.
[69] K. Manolopoulos,et al. Influence of motility and vitality in intracytoplasmic sperm injection with ejaculated and testicular sperm , 2005, Andrologia.
[70] R. Aitken,et al. Impact of radio frequency electromagnetic radiation on DNA integrity in the male germline. , 2005, International journal of andrology.
[71] B. Hales,et al. The stress response in gametes and embryos after paternal chemical exposures. , 2005, Toxicology and applied pharmacology.
[72] R. Jansen,et al. First recorded pregnancy and normal birth after ICSI using electrophoretically isolated spermatozoa. , 2007, Human reproduction.
[73] D. Sakkas,et al. Origin of DNA damage in ejaculated human spermatozoa. , 1999, Reviews of reproduction.
[74] R John Aitken,et al. Cis-unsaturated fatty acids stimulate reactive oxygen species generation and lipid peroxidation in human spermatozoa. , 2006, The Journal of clinical endocrinology and metabolism.
[75] N. Ogonuki,et al. Microinsemination and nuclear transfer using male germ cells. , 2000, International review of cytology.
[76] A. Agarwal,et al. Increased DNA damage in sperm from leukocytospermic semen samples as determined by the sperm chromatin structure assay. , 2002, Fertility and sterility.
[77] A. Bast,et al. Quantification of the nonenzymatic fast and slow TRAP in a postaddition assay in human seminal plasma and the antioxidant contributions of various seminal compounds. , 2000, Journal of andrology.
[78] M. Hammadeh,et al. Comparison of reactive oxygen species concentration in seminal plasma and semen parameters in partners of pregnant and non-pregnant patients after IVF/ICSI. , 2006, Reproductive biomedicine online.
[79] B. Hales,et al. Epigenetic programming in the preimplantation rat embryo is disrupted by chronic paternal cyclophosphamide exposure , 2005, Proceedings of the National Academy of Sciences of the United States of America.
[80] M. Zenzes. Smoking and reproduction: gene damage to human gametes and embryos. , 2000, Human reproduction update.
[81] J. Tesarik,et al. High-magnification ICSI overcomes paternal effect resistant to conventional ICSI. , 2006, Reproductive biomedicine online.
[82] G. Draper,et al. Case-control study of parental age, parity and socioeconomic level in relation to childhood cancers. , 2001, International journal of epidemiology.
[83] R. Aitken,et al. DNA damage to spermatozoa has impacts on fertilization and pregnancy , 2005, Cell and Tissue Research.
[84] S. Oehninger,et al. Analysis of DNA fragmentation, plasma membrane translocation of phosphatidylserine and oxidative stress in human spermatozoa. , 2000, Human reproduction.
[85] Yankai Xia,et al. Study on the relation between occupational fenvalerate exposure and spermatozoa DNA damage of pesticide factory workers , 2004, Occupational and Environmental Medicine.
[86] S. Wacholder,et al. Paternal cigarette smoking and the risk of childhood cancer among offspring of nonsmoking mothers. , 1997, Journal of the National Cancer Institute.
[87] P. Saunders,et al. Impact of a mild scrotal heat stress on DNA integrity in murine spermatozoa. , 2005, Reproduction.
[88] R. Aitken,et al. Definitive evidence for the nonmitochondrial production of superoxide anion by human spermatozoa. , 2006, The Journal of clinical endocrinology and metabolism.
[89] A. Lenzi,et al. Full-term pregnancies achieved with ICSI despite high levels of sperm chromatin damage. , 2004, Human reproduction.